Guide to Contamination Standards g - ParkerHFDE

ENGlISH. Guide to Contamination Standards. 7. NAS 1638 table. The NAS 1638 cleanliness standard was developed for aerospace components in the US and i...

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g Guide to Contamination Standards

Part number: DD0000015_GB_Rev© 2011 Parker Hannifin Corporation www.parker.com/hfde

Contents Introduction...............................................................................................2 Contamination basics................................................................................3 ISO codes (hydraulic fluid contamination)................................................4 Suggested acceptable contamination levels.............................................5 ISO codes (fuel contamination).................................................................6 Typical reporting: particle sizes................................................................6 NAS 1638 table..........................................................................................7 SAE AS4059 rev E table.............................................................................8 GOST 17216-2001 table.............................................................................9 NAV AIR 10-1A-17 table...........................................................................10 ISO/NAS/SAE code comparison table.....................................................10 PPM Conversion table.............................................................................11

Introduction This guidebook is aimed at engineers, technicians and quality control personnel involved in contamination control. Its purpose is to make available accepted and widely-used cleanliness specification levels for liquid samples. The tables in this guide allow users of using automatic portable particle counters to see the relationship between raw particle counts at various sizes and the reporting code numbers of various contamination standards.

A NOTE ON THE FIGURES USED Note that some of the table entries are defined as cumulative counts (e.g. “> 6µm”) and others are defined as differential counts (e.g. 6–14µm”). Instances of particle sizes given as “µm” refer to ACFTD (i.e. Air Cleaner Fine Test Dust) distributions. Instances of particle sizes given as “µm(c)” refer to MTD (i.e. ISO Medium Test Dust) distributions. All standards are in counts per volume, and provide easy methods for converting particle counts into limits that are simple to interpret. By noting the requirements of the standard, particle counts can be accurately converted to contamination levels.

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Contamination basics Solid contaminants in fluid systems vary in size, shape, form and quantity. The most damaging contaminants in hydraulic systems are normally between 6 and 14 microns, and therefore cannot be seen by the naked eye. The table below gives an indication of the relative sizes of common objects. Object

Typical Size

Grain of table salt

100 µm

Diameter of human hair

70 µm

Limit of human visibility (naked eye)

40 µm

Milled flour

25 µm

Red blood cells

8 µm

Bacteria

2 µm

Image

NOTE: One micron (μm) equals one thousandth of a millimetre (1μm = 0.001mm).

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ISO codes (hydraulic fluid contamination) ISO standard 4406:1999 provides a way of summarising the distribution of contaminants in a fluid by counting the particles per 100ml sample of hydraulic fluid: the figures are cumulative. To make the numbers less cumbersome, they are converted to number codes, as in the following table. Each code measures a “channel” of representative particle sizes that are particularly associated with wear and damage in hydraulic systems: these are 4µm(c), 6µm(c) and 14µm(c). For example, 700 000 particles larger than 4µm(c) corresponds to ISO 20 (as 700 000 is more than 500 000 but fewer than 1 000 000). In the same way, 140 000 particles larger than 6µm(c) corresponds to ISO 18; and 7 000 particles larger than 14µm(c) corresponds to ISO 13. So this fluid would be reported as 20 / 18 / 13. When the raw data in one of the size ranges results in a particle count of fewer than 20 particles, the scale number for that size range is labelled with the symbol ‘>’.

ISO code number

4

Number of particles per 100ml sample More than

Up to and including

24 23 22

8 000 000 4 000 000 2 000 000

16 000 000 8 000 000 4 000 000

21

1 000 000

2 000 000

20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

500 000 250 000 130 000 64 000 32 000 16 000 8 000 4 000 2 000 1 000 500 250 130 64 32 16 8 4 2 1

1 000 000 500 000 250 000 130 000 64 000 32 000 16 000 8 000 4 000 2 000 1 000 500 250 130 64 32 16 8 4 2

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Suggested acceptable contamination levels ISO code numbers

Type of system

Typical components

Sensitivity

23 / 21 / 17

Low pressure systems with large clearances

Ram pumps

Low

20 / 18 / 15

Typical cleanliness of new hydraulic oil straight from the manufacturer.

Flow control valves

Average

Low pressure heavy industrial systems or applications where long-life is not critical 19 / 17 / 14

General machinery and mobile systems

Cylinders

Gear pumps/motors

Important

World Wide Fuel Charter cleanliness standard for diesel fuel delivered from the filling station nozzle.

Valve and piston pumps/ motors

Very important

High quality reliable systems

Directional and pressure control valves

Medium pressure, medium capacity 18 / 16 / 13

General machine requirements 17 / 15 / 12

Highly sophisticated systems and hydrostatic transmissions

Proportional valves

Critical

16 / 14 / 11

Performance servo and high Pressure long-life systems

Industrial servovalves

Critical

High performance servovalves

Super critical

e.g. Aircraft machine tools, etc. 15 / 13 / 09

Silt sensitive control system with very high reliability Laboratory or aerospace

NOTE: The three figures of the ISO code numbers represent ISO level contamination grades for particles of >4µm(c), >6µm(c) and >14µm(c) respectively.

Guide to Contamination Standards

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ISO codes (fuel contamination) ISO standard 4406:1999 is used to measure contamination in fuel, as well as in hydraulic systems (see page 4). The only difference is that particle counts are usually expressed as per millilitre, rather than per 100ml, so the raw counts are generally 100 times lower.

Number of particles per ml

ISO code number

More than

Up to and including

22 21 20 19 18 17 16 15 14 13 12 11 10 09 08 07

20 000 10 000 5 000 2 500 1 300 640 320 160 80 40 20 10 5 2.5 1.3 0.64

40 000 20 000 10 000 5 000 2 500 1 300 640 320 160 80 40 20 10 5 2.5 1.3

Typical reporting: particle sizes Hydraulic fluid

ISO MTD

4µ(c)

6µ(c)

14µ(c)

21µ(c)

38µ(c)

70µ(c)

ACFTD





15µ

25µ

50µ



Fuel

ISO MTD

4µ(c)

6µ(c)

14µ(c)

21µ(c)

25µ(c)

30µ(c)

Industry conventionally reports raw particle counts as per 100ml for hydraulic fluids, and per ml for fuel, though this is not part of any standard.

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NAS 1638 table The NAS 1638 cleanliness standard was developed for aerospace components in the US and is still widely used for industrial and aerospace fluid power applications and in the UK North Sea industries. The figures are differential counts, and the NAS class is usually reported as a single figure representing the maximum allowed particle counts (i.e. worst case) for designated particle size ranges. Size range NAS classes (based on maximum contamination limits, particles per 100ml)

5–15 µm

15–25 µm

25–50 µm

50–100 µm

>100 µm

00

125

22

4

1

0

0

250

44

8

2

0

1

500

89

16

3

1

2

1 000

178

32

6

1

3

2 000

356

63

11

2

4

4 000

712

126

22

4

5

8 000

1 425

253

45

8

6

16 000

2 850

506

90

16

7

32 000

5 700

1 012

180

32

8

64 000

11 400

2 025

360

64

9

128 000

22 800

4 050

720

128

10

256 000

45 600

8 100

1 440

256

11

512 000

91 000

16 200

2 880

512

12

102 4000

182 400

32 400

5 760

1 024

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SAE AS4059 rev E table Note that this standard is technically identical to ISO 11218. Maximum contamination limits (particles per ml) MTD

>4µm(c)

>6µm(c)

>14µm(c)

>21µm(c)

>38µm(c)

>70µm(c)

ACFTD

>2µm

>5µm

>15µm

>25µm

>50µm

>100µm

Size code

A

B

C

D

E

F

000

195

76

14

3

1

0

00

390

152

27

5

1

0

0

780

304

54

10

2

0

1

1 560

609

109

20

4

1

2

3 120

1220

217

39

7

1

3

6 250

2 430

432

76

13

2

4

12 500

4 860

864

152

26

4

5

25 000

9 730

1 730

306

53

8

6

50 000

19 500

3 460

612

106

18

7

100 000

38 900

6 920

1 220

212

32

8

200 000

77 900

13 900

2 450

424

64

9

400 000

15 6000

27 700

4 900

848

128

10

800 000

31 1000

55 400

9 800

1 700

256

11

16 0000

62 3000

111 000

19 600

3 390

512

12

320 000

125 0000

222 000

39 200

6 780

1 024

8

MTD

ISO11171 (Calibration or optical microscope count – particle size based on projected area equivalent diameter)

ACFTD

ISO4402 (Calibration or optical microscope count – particle size based on longest dimension)

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GOST 17216-2001 table The GOST standard is developed by the Technical Committee of Standardization TK 184 “Ensuring Industrial Cleanliness” introduced by the Government of Russia. Adopted by the Inter-governmental Committee of Standardization Metrology and Certification (Protocol No. 19 dated 24 May 2001). Size range

Particle contamination level by class (particles per 100ml)

5–10µm

10–25µm

25–50µm

50–100µm

100–200µm

00

8

4

1

0

0

0

16

8

2

0

0

1

32

16

3

0

0

2

63

32

4

1

0

3

125

63

8

2

0

4

250

125

12

3

0

5

500

250

25

4

1

6

1 000

500

50

6

2

7

2 000

1 000

100

12

4

8

4 000

2 000

200

25

6

9

8 000

4 000

400

50

12

10

16 000

8 000

800

100

25

11

31 500

16 000

1600

200

50

12

63 000

31 500

3150

400

100

13



63 000

6300

800

200

14



125 000

12 500

1 600

400

15





25 000

3 150

800

16





50 000

6 300

1 600

17







125 000

3 150

Guide to Contamination Standards

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NAV AIR 10-1A-17 table The Navy Standard for Hydraulic Fluids used for aircraft hydraulic systems is defined in the Aviation Hydraulics Manual (1989), Table 2-1, Navy Standard for Particulate Cleanliness.

NAVY STANDARD FOR HYDRAULIC FLUIDS – USED FOR AIRCRAFT HYDRAULIC SYSTEMS Particle Contamination Level by Class Particle size in µm 5–10 10–25 25–50 50–100 >100

0

1

2

2 700 670 93 16 1

4 600 1 340 210 28 3

3

5

6

87 000 21 400 3 150 430 41

128 000 42 000 6 500 1000 92

4

Number of particles per 100ml 9 700 2 680 380 56 5

24 000 5 360 780 110 11

32 000 10 700 1 510 225 21

ISO/NAS/SAE code comparison table The comparisons relate to particle count data only. To confirm to any particular standard reference should be made to the recommended experimental procedure.

ISO/DIS 4406 BS 5540/4 codes 13 / 11 / 08 14 / 12 / 09 15 / 13 / 10 16 / 14 / 09 16 / 14 / 11 17 / 15 / 09 17 / 15 / 10 17 / 15 / 12 18 / 16 / 10 18 / 16 / 11 18 / 16 / 13 19 / 17 / 11 19 / 17 / 14 20 / 18 / 12 20 / 18 / 13 20 / 18 / 15 21 / 19 / 13 21 / 19 / 16 22 / 20 / 13 22 / 20 / 17 23 / 21 / 14 23 / 21 / 18 24 / 22 / 15 25 / 23 / 17

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Defence Std. 05/42 Table A

Table B

NAS 1638

SAE 749

2 3 4

0 1

5

2

6

3

7

4

8

5

9

6

400F 400 800F 800 1300F 1 300

2000

2 000 4400F 4 400

6300F 10

6 300 11 15 000 12 21 000 100 000

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PPM Conversion table Percent contamination vs. PPM (parts per million) Percent PPM 100% 1 000 000 10%

100 000

1% 0.1% 0.01% 0.001%

10 000 1 000 100 10

Volume 1 litre = 1 000 ml 1 PPM = 1 µl in 1 litre Example 1 400 PPM in 1 litre = 400 µl Example 2 A reading of 250 PPM equates to a quantity of absorbed water in a 400 litre capacity system of 0.1 litre.

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